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pubmed:abstractText |
Recently we reported that both the triphenylethylene antiestrogen tamoxifen, and the novel compound N,N-diethyl-2-[(4 phenylmethyl)-phenoxy]-ethanamine. HCl (DPPE), which is selective for the antiestrogen binding site, may be histamine antagonists and have suggested that the antiestrogen binding site may be a growth-promoting histamine receptor different from H1 and H2 (?H3). We now show that along with established H1-antagonists, tamoxifen and DPPE specifically block the histamine-induced (H1) contraction of canine tracheal smooth muscle in the order: pyrilamine = hydroxyzine greater than tamoxifen = 4-hydroxytamoxifen greater than DPPE. The H1-antagonist hydroxyzine, which competes about equally with DPPE for the antiestrogen binding site, is up to 10(3) times stronger than DPPE in blocking histamine-induced muscle contraction. This shows that H1 antagonism is distinct from binding to the antiestrogen binding site and suggests that if the latter is a histamine receptor, it is not H1; presumably tamoxifen and DPPE compete for this novel site in addition to, and with greater affinity than, H1.
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